簡曆：　

李劭傑，山西陽泉人，漢族，碩士研究生導師。主要從事細粒沉積岩和油氣成藏相關的研究工作，發表第一作者學術論文14篇，主要發表于AAPG Bulletin、International Journal of Coal Geology、Marine and Petroleum Geology、Geoenergy Science and Engineering、Ore Geology Reviews、Journal of Earth Science、天然氣地球科學等國内外能源地質領域的相關刊物。多次參與國内外地學相關的學術會議并做口頭報告，包括Goldschmidt、Australian Organic Geochemistry Conference、全國沉積學大會、中國礦物岩石地球化學學會學術年會、青年地學論壇等。

研究方向：

頁岩地化分析。頁岩有機地化、金屬元素及金屬同位素地化特征分析；烴源岩評價。

頁岩脈體分析。頁岩中自生礦物的地化特征及成因分析，包括方解石、白雲石、石英、黃鐵礦等。

成藏定年分析。油氣成藏過程相關的多類型同位素體系定年分析，包括U-Pb、Re-Os、Rb-Sr等。

工作及教育經曆：

2009年9月-2013年6月，獲中國地質大學（武漢）資源勘查工程專業學士學位，導師何生教授；

2013年9月-2015年6月，獲中國地質大學（武漢）礦産普查與勘探專業碩士學位，導師何生教授；

2015年11月-2020年4月，獲澳大利亞科廷大學應用地質學博士學位，導師劉可禹教授；

2020年6月-2023年6月，雲南大學工作，博士後助理研究員；

2023年9月-2024年12月，永利6774app手机版官网工作，博士後；

2025年1月至今，永利6774app手机版官网工作，特任教授。

學術兼職：

中國地質學會等學術團體的會員，國内外能源領域相關刊物的審稿人，包括Organic Geochemistry、Fuel、Scientific Reports、油氣地質與采收率等。

近五年承擔科研項目情況：

國家資助博士後研究人員計劃：震旦-寒武系富有機質頁岩及油氣産物對宜昌何家坪MVT型Pb-Zn礦的成礦貢獻研究，2023-2025，主持；

中國博士後科學基金面上項目：中揚子宜昌地區燈影組古油藏與MVT型鉛鋅礦伴生機制研究，2024-2025，主持；

中國石化深部地質與資源重點實驗室開放基金：大火成岩省相關熱液流體活動對深層烴類物質Re-Os同位素影響機理研究，2024-2025，主持。

獲獎情況：

入選湖北省博士後創新人才培養項目，2024年；

參與指導本科生參加“第七屆全國油氣地質大賽”，獲綜合組二等獎，2024年。

期刊論文：（共發表論文23篇，SCI收錄19篇；其中第一作者論文14篇，SCI收錄論文13篇）：

1. Li, S., Guo, X., Wang, B., Cao, Z., Xu, H. and Chen, J., 2024. Recognition of a hydrothermally linked oil accumulation process in the Tahe oil field, northwestern China, with organic geochemistry, Re-Os, and U-Pb geochronology. AAPG Bulletin, 108(8): 1485-1508. https://doi.org/10.1306/02132422124.

2. Li, S., Xiao, Q. and Cai, S., 2024. Pyrite trace metal and sulfur isotopic compositions track metalliferous fluid circulation within the Ordovician/Silurian organic-rich black shales in the eastern Sichuan Basin, southwestern China. International Journal of Coal Geology, 294: 104617. https://doi.org/10.1016/j.coal.2024.104617.

3. Li, S., Guo, X., Zheng, L. and Han, Y., 2023. Semi-closed hydrous pyrolysis of type I source rock using formation water: Implications for biomarker behaviour under supercritical conditions. Marine and Petroleum Geology, 158: 106510. https://doi.org/10.1016/j.marpetgeo.2023.106510.

4. Li, S., Guo, X. and Zheng, L., 2022. Semi-closed artificial thermal maturation of type I source rock with the presence of natural formation water: hydrocarbon generation and individual n-alkane stable carbon isotope partitioning pattern. Marine and Petroleum Geology, 138: 105535. https://doi.org/10.1016/j.marpetgeo.2023.106510.

5. Li, S., Wang, X. and Hu, M., 2023. Organic matter accumulation and hydrothermal effect of the Barney Creek formation in the Glyde Sub-basin, northern Australia. Geoenergy Science and Engineering, 230: 212216. https://doi.org/10.1016/j.geoen.2023.212216.

6. Li, S., Guo, X. and Zheng, L., 2022. Carbon-hydrogen isotopic systematics of gases generated in semi-closed hydrous pyrolysis of type I source rock with the presence of formation water: Implications for gas isotope partitioning under supercritical conditions. Marine and Petroleum Geology, 142: 105735. https://doi.org/10.1016/j.marpetgeo.2022.105735.

7. Li, S., Wang, X., Hu, S., Guagliardo, P., Kilburn, M., Golding, S.D., Rodrigues, S. and Bourdet, J., 2022. Recognition of a widespread Paleoproterozoic hydrothermal system in the southern McArthur Basin, northern Australia, by in-situ analysis of fine-grained pyrite and spatially-associated solid bitumen in the Lamont Pass palaeohigh. Ore Geology Reviews, 144: 104834. https://doi.org/10.1016/j.oregeorev.2022.104834.

8. Li, S., Zheng, L. and Guo, X., 2022. Thermal evolution and hydrocarbon generation capacity of typical Palaeozoic marine source rocks in the South China Craton: Constrains from semiclosed artificial thermal maturation experiments. Lithosphere, 13, 9072890. https://doi.org/10.2113/2022/9072890.

9. Li, S., Wang, X., Wilde, S.A., Chu, Z., Li, C., He, S., Liu, K., Ma, X. and Zhang, Y., 2021. Revisiting rhenium-osmium isotopic investigations of petroleum systems: from geochemical behaviour to geological interpretation. Journal of Earth Sciences, 32: 1226–1249. https://doi.org/10.1007/s12583-020-1066-7.

10. Li, S., Zhu, Z., Xiao, Q., Cai, S. and Li, H., 2025. Linking volcanism, hydrothermal venting, and Ordovician/Silurian marine organic-rich sediments in the eastern Sichuan Basin, Southwest China, Journal of Marine Science and Engineering, 13, 483. https://doi.org/10.3390/jmse13030483.

11. Li, S., Wang, X., Li, C., Wilde, S.A., Zhang, Y., Golding, S.D., Liu, K. and Zhang, Y., 2019. Direct rubidium-strontium dating of hydrocarbon charge using small authigenic illitic clay aliquots from the Silurian bituminous sandstone in the Tarim Basin, NW China. Scientific Reports, 9(1): 12565. https://doi.org/10.1038/s41598-019-48988-3.

12. Li, S., Zheng, L., Guo, X. and Han, Y. 2024. Carbon isotopic behavior during hydrocarbon expulsion in semiclosed hydrous pyrolysis of type I and type II saline lacustrine source rocks in the Jianghan Basin, Central China. Lithosphere, 1, 2023294. https://doi.org/10.2113/2024/lithosphere_2023_294.

13. Li, S., Wang, X., Li, C., Liu, K., Wilde, S.A., Hu, S., Gui, L., Liu, J. and Wu, L., 2020. First direct dating of alteration of paleo-oil pools using rubidium-strontium pyrite geochronology. Minerals, 10(7): 606. https://doi.org/10.3390/min10070606.

14. 李劭傑，何生，朱偉林，王曉龍，吳景富，程甜, 2014. 基于珠一坳陷旋回地層分析的烴源岩沉積速率研究. 天然氣地球科學, 9(25), 1328-1340. http://www.nggs.ac.cn/CN/10.11764/j.issn.1672-1926.2014.09.1328.